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971.
Current strategies for marine pollution monitoring are based on the integration of chemical and biological techniques. The sea urchin embryo-larval bioassays are among the biological methods most widely used worldwide. Cryopreservation of early embryos of sea urchins could provide a useful tool to overcome one of the main limitations of such bioassays, the availability of high quality biological material all year round. The present study aimed to determine the suitability of several permeant (dimethyl sulfoxide, Me2SO; propylene glycol, PG; and ethylene glycol, EG) and non-permeant (trehalose, TRE; polyvinylpyrrolidone, PVP) cryoprotectant agents (CPAs) and their combination, for the cryopreservation of eggs and embryos of the sea urchin Paracentrotus lividus. On the basis of the CPAs toxicity, PG and EG, in combination with PVP, seem to be most suitable for the cryopreservation of P. lividus eggs and embryos. Several freezing procedures were also assayed. The most successful freezing regime consisted on cooling from 4 to −12 °C at 1 °C/min, holding for 2 min for seeding, cooling to −20 °C at 0.5 °C/min, and then cooling to −35 °C at 1 °C/min. Maximum normal larvae percentages of 41.5% and 68.5%, and maximum larval growth values of 42.9% and 60.5%, were obtained for frozen fertilized eggs and frozen blastulae, respectively. 相似文献
972.
In the last decades, several studies have reported the increase of land degradation and desertification in the Mediterranean Basin. Depending on degradation severity, ecological restoration might be needed in order to promote ecosystem recovery. The ecology of the selected species and intra specific variability should be considered in order to improve restoration options, especially facing climate change.The present study tested the hypothesis that seedlings from drier provenances would be better adapted to low water content conditions. Seeds were germinated under controlled temperature after which seedlings were grown in a phytotron under two contrasting watering regimes. Seedling performance was analysed using morphological and physiological parameters.Low water content had a clear negative effect on the seedlings’ aboveground biomass (total dry weight, root collar diameter, leaf dry weight and leaf weight ratio) and a positive effect on belowground biomass (root weight and root:shoot ratio). This response was not unequivocal, since provenances differed in morphological adaptations to low water content. Seedlings from the wettest provenance revealed a higher relative growth rate under high water content but a poor adaptation to limited water availability when compared to the other two provenances. This was observed by the absence of a significant belowground investment in this provenance. Seedlings from the wettest provenance also presented a significant reduction of total leaf area that was not observed in the other two provenances. This can however be hardly considered as a successful adaptation to cope with drought since this provenance produced less sclerophyllous leaves, less belowground biomass and also lower sapwood to leaf area ratio independently from the water content conditions. By contrast, seedlings from the dry provenance with the hottest summer had similar root collar diameter, leaf dry weight and physiological performance under both watering regimes.The observed adaptations to water regimes seem to be related with the climate of the seed source and highlighted the importance of seed provenance in ecological restoration actions using Mediterranean species. This knowledge could improve early establishment success predictions for different plant populations, allowing more reliable and cost-effective management decisions under climate change scenarios. 相似文献
973.
Catharanthus roseus plants produce many pharmaceutically important indole alkaloids, of which the bisindole alkaloids vinblastine and vincristine
are antineoplastic medicines and the monoindole alkaloids ajmalicine and serpentine are antihypertension drugs. C. roseus cell cultures have been studied for producing these medicines or precursors catharanthine and vindoline for almost four decades
but so far without a commercially successful process due to biological and technological limitations. The research thus focused
on the one hand on engineering the bioreactor process on the other engineering the cell factory itself. This review mainly
summarizes the progress made on biochemical engineering aspects of C. roseus cell cultures in bioreactors in the past decades and metabolic engineering of indole alkaloid production in recent years.
The paper also attempts to highlight new strategies and technologies to improve alkaloid production and bioreactor performance.
Perspectives of metabolic engineering to create new cell lines for large-scale production of indole alkaloids in bioreactors
and effective combination of these up- and down-stream processing are presented. 相似文献
974.
Virginie Grizon Marie Dominique Legoy Sylvain Lamare 《Biocatalysis and Biotransformation》2004,22(3):177-182
It has recently been demonstrated that dried cells of Saccharomyces cerevisiae were able to produce alcohols and aldehydes in a solid/gas reactor with in situ cofactor regeneration. Since diffusion of gaseous substrates may be limited by the membrane and cell wall, cell disruption by sonication was used to improve oxidoreduction with ethanol and butyraldehyde as substrates. Results showed that partial cell disruption enhances the maximum conversion yield with the best results obtained after 2 min of sonication. Beyond this time, the ADH activity decreased. Better stability was observed in the pellet obtained after centrifugation indicating the importance of cell environment for enzyme stability. Tests on purified mitochondria showed that the ADH activity in cells was mainly cytoplasmic. The addition of oxidized cofactor did not change either the activity or the stability of the catalyst in a gaseous medium. The effect of water activity was studied on material obtained after 2 min of disruption and a reduction of critical water activity needed for revealing enzymatic activity was observed. With increasing aw, the enzyme was active at aw=0.3 while a water activity of 0.4 was required before disruption. Nevertheless, the best compromise between activity and stability was obtained in both cases for a water activity of 0.57. 相似文献
975.
976.
This research demonstrates that a leaf’s response to acid mist is dependent on the integrity of the leaf cuticle and that
significant differences in the structural and physiological disturbances in leaves can be attributable to different types
of wind action. Betula pubescens Ehrh. plants were located at adjacent, but contrasting, sites to create different wind treatments: (i) direct wind action,
(ii) indirect wind action and (iii) shelter from wind action (control). In combination with the wind treatments, acidic (pHs 5
and 3) or neutral (pH 7) mists were applied weekly. Wind action significantly increased visible leaf injury, microscopic cuticular
lesions and cuticular conductance (g
c
), but reduced photosynthetic rate (P
N
) and stomatal conductance (g
s
) compared to shelter. Wind action combined with acid mist was more injurious than wind action alone, but leaves sheltered
from wind action were highly resistant to the damaging effects of acid mist. Direct wind action combined with pH 3 mist resulted
in the highest values of g
c
and the greatest number of cuticular lesions. By contrast, indirect wind action combined with pH 3 mist induced most visible
injury, but relatively low values of g
c
and few microscopic cuticular lesions. Acid mist reduced P
N
only when leaves had been damaged by wind action. Higher values of g
c
were associated both with increases in the area of visible leaf injury and with the number of cuticular lesions. Compensatory
increase in P
N
of healthy tissue was evident in leaves exposed to combinations of wind action and acid mist.
Received: 10 November 1997 / Accepted: 6 March 1998 相似文献